Work done = force x mass . gotcha
No. Mass is a characteristic that exerts a force of gravity on another mass. The measure of force is the Newton. The Newton uses mass as part of the factors that go into the calculation.
On earth one Newton equates to 0.1kg
We have no way of knowing what power the machine was rated for, but with the information given in the question, we can calculate the power it delivered during the crate-lift: It was (1.96) x (mass of the crate in kilograms) x (distance the crate was lifted in meters) watts.
no
In accordance to Newton's Second Law, you need to divide the force by the acceleration. The answer in this case will be in kilograms.
Work done = force x mass . gotcha
If the speed is constant, then the forces on the crate are balanced, i.e. they add up to zero.Since the kinetic friction force is 10N, then the puller must be pulling the crate with an equal force of 10N.If he continues pulling with the force of 10N through a distance of 10 m, then the work he does is(10 x 10) = 100 newton-meters or 100 joules.The mass of the crate is utterly irrelevant to the discussion.
Force is measured in newton. Gram is a unit of mass, not of force.Force is measured in newton. Gram is a unit of mass, not of force.Force is measured in newton. Gram is a unit of mass, not of force.Force is measured in newton. Gram is a unit of mass, not of force.
Fe (iron/) 410 means that the steel has a strength of 410 Newton per Square millimeter while applying a pulling force.
Weight = mass x gravity. Assuming normal Earth gravity, you can divide the weight (in newton) by 9.8 to get the mass (in kilograms).
Gravity - combined with the Earth's inertia (its mass, and Newton's laws of motion).Gravity - combined with the Earth's inertia (its mass, and Newton's laws of motion).Gravity - combined with the Earth's inertia (its mass, and Newton's laws of motion).Gravity - combined with the Earth's inertia (its mass, and Newton's laws of motion).
Newton used to measure force and kilograms for mass.
On earth, this object has a mass of 25.82kg
Since Newton is the unit for Force. And as we know "Force = Mass * Acceleration" Newton = Kg * 9.81 Therefore , Kg = Newton / 9.81 Hence, Mass = 22000/9.81 = 2200 (approx)
No. Mass is a characteristic that exerts a force of gravity on another mass. The measure of force is the Newton. The Newton uses mass as part of the factors that go into the calculation.
80 J